O=c=o
o=c=o
Chemical energy is stored in a molecule's bonds. This type of energy is released or absorbed during chemical reactions.
in its bonds
When the outer phosphate group detaches from ATP, energy is stored.
Energy in glucose is released. That energy is stored in ATP
Adenosine triphosphate (ATP) is the molecule with the greatest amount of stored energy in its bonds. When ATP is broken down, energy is released for cellular processes.
ATP (adenosine triphosphate) has the greatest amount of stored energy in its bonds among common biological molecules. It serves as the primary energy currency in cells, transferring energy for various cellular processes.
O=C=O
The amount of energy stored in a molecule depends on its chemical bonds and structure. This energy is typically measured in units like kilojoules per mole or electron volts. The energy stored in a molecule is released or absorbed during chemical reactions.
Which molecule most likely has the greatest amount of stored energy in its bonds? A. H-O-H B. Fe-O C. O=C=O D. Na-CI Answer is : ( O=C=O )
The energy stored in a molecule bond is potential energy. This energy is released when the bond is broken, and it is required to form the bond in the first place. The amount of energy stored in a bond depends on the type of bond and the atoms involved.
Chemical energy is stored in the bonds between atoms within a molecule. When these bonds are broken during a chemical reaction, energy is either released or absorbed. The type and strength of these bonds determine the amount of potential energy stored in the molecule.
One molecule of glucose stores 90 times the amount of chemical energy than one molecule of ATP.
O=c=o
The greatest amount of energy stored in an ecosystem is found in producers, such as plants, which convert sunlight into chemical energy through photosynthesis. This energy is then transferred through the food chain to herbivores and to carnivores, with energy decreasing at each trophic level due to metabolic losses.
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Uranium has the greatest amount of stored energy in its bonds due to its high atomic number and ability to undergo nuclear fission reactions, releasing large amounts of energy in the process.